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Literature DB >> 31652401

Telomere length tracking in children and their parents: implications for adult onset diseases.

Athanase Benetos^1,2, Simon Verhulst³, Carlos Labat¹, Tsung-Po Lai⁴, Nicolas Girerd^1,5,6, Simon Toupance^1,2, Faiez Zannad^1,5,6, Patrick Rossignol^1,5,6, Abraham Aviv⁴.

Abstract

Adults with comparatively short or long leukocyte telomere length (LTL) typically continue to display comparatively short or long LTL throughout life. This LTL tracking stems from the inability of person-to-person variation in age-dependent LTL shortening during adulthood to offset the wide interindividual LTL variation established prior to adult life. However, LTL tracking in children is unstudied. This study aimed to examine LTL shortening rates and tracking in children and their parents. Longitudinal study in children (n = 67) and their parents (n = 99), whose ages at baseline were 11.4 ± 0.3 and 43.4 ± 0.4 yr, respectively. LTL was measured by Southern blotting at baseline and ∼14 yr thereafter. LTL displayed tracking in both children [intraclass correlation coefficient (ICC) = 0.905, P < 0.001] and their parents (ICC = 0.856, P < 0.001). The children's rate of LTL shortening was twice that of their parents (40.7 ± 2.5 bp/yr; 20.3 ± 2.1 bp/yr, respectively; P < 0.0001). LTL tracking applies not only to adulthood but also to the second decade of life. Coupled with previous work showing that the interindividual variation in LTL across newborns is as wide as in their parents, these findings support the thesis that the LTL-adult disease connection is principally determined before the second decade of life, perhaps mainly at birth.-Benetos, A., Verhulst, S., Labat, C., Lai, T.-P., Girerd, N., Toupance, S., Zannad, F., Rossignol, P., Aviv, A. Telomere length tracking in children and their parents: implications for adult onset diseases.

Entities: Chemical

Keywords: aging; leukocytes; telomere attrition; terminal restriction fragments

Mesh：

Year: 2019 PMID： 31652401 PMCID： PMC6894096 DOI： 10.1096/fj.201901275R

Source DB: PubMed Journal: FASEB J ISSN： 0892-6638 Impact factor: 5.834

26 in total

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Journal: Nucleic Acids Res Date: 1988-02-11 Impact factor: 16.971

4. Leukocyte Telomere Length in Newborns: Implications for the Role of Telomeres in Human Disease.

Authors: Pam Factor-Litvak; Ezra Susser; Katrina Kezios; Ian McKeague; Jeremy D Kark; Matthew Hoffman; Masayuki Kimura; Ronald Wapner; Abraham Aviv
Journal: Pediatrics Date: 2016-03-11 Impact factor: 7.124

5. Association Between Telomere Length and Risk of Cancer and Non-Neoplastic Diseases: A Mendelian Randomization Study.

Authors: Philip C Haycock; Stephen Burgess; Aayah Nounu; Jie Zheng; George N Okoli; Jack Bowden; Kaitlin Hazel Wade; Nicholas J Timpson; David M Evans; Peter Willeit; Abraham Aviv; Tom R Gaunt; Gibran Hemani; Massimo Mangino; Hayley Patricia Ellis; Kathreena M Kurian; Karen A Pooley; Rosalind A Eeles; Jeffrey E Lee; Shenying Fang; Wei V Chen; Matthew H Law; Lisa M Bowdler; Mark M Iles; Qiong Yang; Bradford B Worrall; Hugh Stephen Markus; Rayjean J Hung; Chris I Amos; Amanda B Spurdle; Deborah J Thompson; Tracy A O'Mara; Brian Wolpin; Laufey Amundadottir; Rachael Stolzenberg-Solomon; Antonia Trichopoulou; N Charlotte Onland-Moret; Eiliv Lund; Eric J Duell; Federico Canzian; Gianluca Severi; Kim Overvad; Marc J Gunter; Rosario Tumino; Ulrika Svenson; Andre van Rij; Annette F Baas; Matthew J Bown; Nilesh J Samani; Femke N G van t'Hof; Gerard Tromp; Gregory T Jones; Helena Kuivaniemi; James R Elmore; Mattias Johansson; James Mckay; Ghislaine Scelo; Robert Carreras-Torres; Valerie Gaborieau; Paul Brennan; Paige M Bracci; Rachel E Neale; Sara H Olson; Steven Gallinger; Donghui Li; Gloria M Petersen; Harvey A Risch; Alison P Klein; Jiali Han; Christian C Abnet; Neal D Freedman; Philip R Taylor; John M Maris; Katja K Aben; Lambertus A Kiemeney; Sita H Vermeulen; John K Wiencke; Kyle M Walsh; Margaret Wrensch; Terri Rice; Clare Turnbull; Kevin Litchfield; Lavinia Paternoster; Marie Standl; Gonçalo R Abecasis; John Paul SanGiovanni; Yong Li; Vladan Mijatovic; Yadav Sapkota; Siew-Kee Low; Krina T Zondervan; Grant W Montgomery; Dale R Nyholt; David A van Heel; Karen Hunt; Dan E Arking; Foram N Ashar; Nona Sotoodehnia; Daniel Woo; Jonathan Rosand; Mary E Comeau; W Mark Brown; Edwin K Silverman; John E Hokanson; Michael H Cho; Jennie Hui; Manuel A Ferreira; Philip J Thompson; Alanna C Morrison; Janine F Felix; Nicholas L Smith; Angela M Christiano; Lynn Petukhova; Regina C Betz; Xing Fan; Xuejun Zhang; Caihong Zhu; Carl D Langefeld; Susan D Thompson; Feijie Wang; Xu Lin; David A Schwartz; Tasha Fingerlin; Jerome I Rotter; Mary Frances Cotch; Richard A Jensen; Matthias Munz; Henrik Dommisch; Arne S Schaefer; Fang Han; Hanna M Ollila; Ryan P Hillary; Omar Albagha; Stuart H Ralston; Chenjie Zeng; Wei Zheng; Xiao-Ou Shu; Andre Reis; Steffen Uebe; Ulrike Hüffmeier; Yoshiya Kawamura; Takeshi Otowa; Tsukasa Sasaki; Martin Lloyd Hibberd; Sonia Davila; Gang Xie; Katherine Siminovitch; Jin-Xin Bei; Yi-Xin Zeng; Asta Försti; Bowang Chen; Stefano Landi; Andre Franke; Annegret Fischer; David Ellinghaus; Carlos Flores; Imre Noth; Shwu-Fan Ma; Jia Nee Foo; Jianjun Liu; Jong-Won Kim; David G Cox; Olivier Delattre; Olivier Mirabeau; Christine F Skibola; Clara S Tang; Merce Garcia-Barcelo; Kai-Ping Chang; Wen-Hui Su; Yu-Sun Chang; Nicholas G Martin; Scott Gordon; Tracey D Wade; Chaeyoung Lee; Michiaki Kubo; Pei-Chieng Cha; Yusuke Nakamura; Daniel Levy; Masayuki Kimura; Shih-Jen Hwang; Steven Hunt; Tim Spector; Nicole Soranzo; Ani W Manichaikul; R Graham Barr; Bratati Kahali; Elizabeth Speliotes; Laura M Yerges-Armstrong; Ching-Yu Cheng; Jost B Jonas; Tien Yin Wong; Isabella Fogh; Kuang Lin; John F Powell; Kenneth Rice; Caroline L Relton; Richard M Martin; George Davey Smith
Journal: JAMA Oncol Date: 2017-05-01 Impact factor: 31.777

6. The heritability of leucocyte telomere length dynamics.

Authors: Jacob B Hjelmborg; Christine Dalgård; Soren Möller; Troels Steenstrup; Masayuki Kimura; Kaare Christensen; Kirsten O Kyvik; Abraham Aviv
Journal: J Med Genet Date: 2015-03-13 Impact factor: 6.318

7. The effect on melanoma risk of genes previously associated with telomere length.

Authors: Mark M Iles; D Timothy Bishop; John C Taylor; Nicholas K Hayward; Myriam Brossard; Anne E Cust; Alison M Dunning; Jeffrey E Lee; Eric K Moses; Lars A Akslen; Per A Andresen; Marie-Françoise Avril; Esther Azizi; Giovanna Bianchi Scarrà; Kevin M Brown; Tadeusz Dębniak; David E Elder; Eitan Friedman; Paola Ghiorzo; Elizabeth M Gillanders; Alisa M Goldstein; Nelleke A Gruis; Johan Hansson; Mark Harland; Per Helsing; Marko Hočevar; Veronica Höiom; Christian Ingvar; Peter A Kanetsky; Maria Teresa Landi; Julie Lang; G Mark Lathrop; Jan Lubiński; Rona M Mackie; Nicholas G Martin; Anders Molven; Grant W Montgomery; Srdjan Novaković; Håkan Olsson; Susana Puig; Joan Anton Puig-Butille; Graham L Radford-Smith; Juliette Randerson-Moor; Nienke van der Stoep; Remco van Doorn; David C Whiteman; Stuart MacGregor; Karen A Pooley; Sarah V Ward; Graham J Mann; Christopher I Amos; Paul D P Pharoah; Florence Demenais; Matthew H Law; Julia A Newton Bishop; Jennifer H Barrett
Journal: J Natl Cancer Inst Date: 2014-09-17 Impact factor: 11.816

Review 8. Gender and telomere length: systematic review and meta-analysis.

Authors: Michael Gardner; David Bann; Laura Wiley; Rachel Cooper; Rebecca Hardy; Dorothea Nitsch; Carmen Martin-Ruiz; Paul Shiels; Avan Aihie Sayer; Michelangela Barbieri; Sofie Bekaert; Claus Bischoff; Angela Brooks-Wilson; Wei Chen; Cyrus Cooper; Kaare Christensen; Tim De Meyer; Ian Deary; Geoff Der; Ana Diez Roux; Annette Fitzpatrick; Anjum Hajat; Julius Halaschek-Wiener; Sarah Harris; Steven C Hunt; Carol Jagger; Hyo-Sung Jeon; Robert Kaplan; Masayuki Kimura; Peter Lansdorp; Changyong Li; Toyoki Maeda; Massimo Mangino; Tim S Nawrot; Peter Nilsson; Katarina Nordfjall; Giuseppe Paolisso; Fu Ren; Karl Riabowol; Tony Robertson; Goran Roos; Jan A Staessen; Tim Spector; Nelson Tang; Brad Unryn; Pim van der Harst; Jean Woo; Chao Xing; Mohammad E Yadegarfar; Jae Yong Park; Neal Young; Diana Kuh; Thomas von Zglinicki; Yoav Ben-Shlomo
Journal: Exp Gerontol Date: 2013-12-21 Impact factor: 4.032

9. Tracking and fixed ranking of leukocyte telomere length across the adult life course.

Authors: Athanase Benetos; Jeremy D Kark; Ezra Susser; Masayuki Kimura; Ronit Sinnreich; Wei Chen; Troels Steenstrup; Kaare Christensen; Utz Herbig; Jacob von Bornemann Hjelmborg; Sathanur R Srinivasan; Gerald S Berenson; Carlos Labat; Abraham Aviv
Journal: Aging Cell Date: 2013-05-27 Impact factor: 9.304

Review 10. Leucocyte telomere length and risk of cardiovascular disease: systematic review and meta-analysis.

Authors: Philip C Haycock; Emma E Heydon; Stephen Kaptoge; Adam S Butterworth; Alex Thompson; Peter Willeit
Journal: BMJ Date: 2014-07-08

10 in total

1. Telomere Length in Valve Tissue Is Shorter in Individuals With Aortic Stenosis and in Calcified Valve Areas.

Authors: Ilona Saraieva; Athanase Benetos; Carlos Labat; Anders Franco-Cereceda; Magnus Bäck; Simon Toupance
Journal: Front Cell Dev Biol Date: 2021-03-11

2. Telomere dynamics across the early life course: Findings from a longitudinal study in children.

Authors: Whitney Cowell; Deliang Tang; Jie Yu; Jia Guo; Shuang Wang; Andrea A Baccarelli; Frederica Perera; Julie B Herbstman
Journal: Psychoneuroendocrinology Date: 2021-05-14 Impact factor: 4.693

Review 3. Telomere length in granulosa cells and leukocytes: a potential marker of female fertility? A systematic review of the literature.

Authors: Anne-Julie Fattet; Simon Toupance; Simon N Thornton; Nicolas Monnin; Jean-Louis Guéant; Athanase Benetos; Isabelle Koscinski
Journal: J Ovarian Res Date: 2020-08-21 Impact factor: 4.234

4. Method comparison studies of telomere length measurement using qPCR approaches: A critical appraisal of the literature.

Authors: Alyssa R Lindrose; Lauren W Y McLester-Davis; Renee I Tristano; Leila Kataria; Shahinaz M Gadalla; Dan T A Eisenberg; Simon Verhulst; Stacy Drury
Journal: PLoS One Date: 2021-01-20 Impact factor: 3.240

5. Variability in newborn telomere length is explained by inheritance and intrauterine environment.

Authors: Li Chen; Karen Mei Ling Tan; Min Gong; Mary F F Chong; Kok Hian Tan; Yap Seng Chong; Michael J Meaney; Peter D Gluckman; Johan G Eriksson; Neerja Karnani
Journal: BMC Med Date: 2022-01-25 Impact factor: 8.775

6. Comparing qPCR and DNA methylation-based measurements of telomere length in a high-risk pediatric cohort.

Authors: Waylon J Hastings; Laura Etzel; Christine M Heim; Jennie G Noll; Emma J Rose; Hannah M C Schreier; Chad E Shenk; Xin Tang; Idan Shalev
Journal: Aging (Albany NY) Date: 2022-01-24 Impact factor: 5.682

7. The telomere tumult: meaning and metrics in population studies.

Authors: Abraham Aviv
Journal: Lancet Healthy Longev Date: 2022-05-04

8. Association of Newborn Telomere Length With Blood Pressure in Childhood.

Authors: Dries S Martens; Hanne Sleurs; Yinthe Dockx; Leen Rasking; Michelle Plusquin; Tim S Nawrot
Journal: JAMA Netw Open Date: 2022-08-01

9. Short Telomeres and a T-Cell Shortfall in COVID-19: The Aging Effect.

Authors: James J Anderson; Ezra Susser; Konstantin G Arbeev; Anatoliy I Yashin; Daniel Levy; Simon Verhulst; Abraham Aviv
Journal: medRxiv Date: 2021-07-10

10. Prenatal Household Air Pollution Exposure, Cord Blood Mononuclear Cell Telomere Length and Age Four Blood Pressure: Evidence from a Ghanaian Pregnancy Cohort.

Authors: Seyram Kaali; Darby Jack; Jones Opoku-Mensah; Tessa Bloomquist; Joseph Aanaro; Ashlinn Quinn; Ellen Abrafi Boamah-Kaali; Patrick Kinney; Mohammed Nuhu Mujtaba; Oscar Agyei; Abena Konadu Yawson; Samuel Osei-Owusu; Rupert Delimini; Blair Wylie; Kenneth Ayuurebobi Ae-Ngibise; Andrea Baccarelli; Seth Owusu-Agyei; Steven N Chillrud; Kwaku Poku Asante; Alison Lee
Journal: Toxics Date: 2021-07-14

10 in total